CN1870838A - Electronic media material on high power stainless steel plate and its preparation method - Google Patents

Abstract

This invention relates to a high-power electronic medium material on the stainless steel plate with superior insulating properties and good printing characteristics and a method for manufacture, which does not need to be printed and sintered in many times. The first step is to prepare the electronic media materials, match the non-metallic materials according to weight percentage, mix them then to sinter the mixed materials to microcrystal glass powder, then add raw materials and water in the glass powder to get a slurry electronic medium to be sprayed on the stainless steel to be sintered to become an insulated medium layer.

Description

Electronic media material on high power stainless steel plate and preparation method thereof

Technical field

The present invention relates to a kind of corrosion resistant plate dielectric material of heater element, relate in particular to electronic media material on a kind of high power stainless steel plate and preparation method thereof.

Background technology

The posistor material (being called for short PTC) that has of the heating series of Ying Yonging heats components and parts in the market, carbon slurry Electric radiant Heating Film heating components and parts, but its heating is slow, power is low, temperature is low and be subjected to a lot of restrictions, also have much high-power on the market, the resistance wire heating components and parts of high-temperature and nickel chromium triangle heating components and parts, but its life-span is short, the heat efficiency is low, not too safe etc., make their application be subjected to a lot of restrictions, external afterwards a lot of companies are by the various electric slurries of research and development, be applied on the ceramic substrate, on the nonmetallic materials such as macromolecular material, but thick-film electronic components and parts as high-power requirement, on nonmetallic materials, can't use basically, subject matter is to split owing to power density is excessive in when energising and damage easily when installing, metal base has good heat resistanceheat resistant and antivibration ability, but because the coefficient of expansion and the electric slurry commonly used of metal material do not match, also have a series of problems such as some metallization oxidation, have some companies such as Du Pont also to work out some electronic media slurries abroad, itself and stainless-steel sheet are complementary, but the people that lowly allow of its expensive price and production efficiency hang back.

Adopt stainless steel as base material, can prevent the oxidation of metal material, but its electronic media material also proposed to be different from the requirement of other dielectric material:

1., processing performance requires: because product belongs to high power high-temperature degree type, therefore require sintering temperature to the electronic media material than higher, and will be complementary with traditional resistance slurry, so sintering temperature requires more than 850 ℃;

2., in order to satisfy the requirement of electric property, require the insulation resistance of electronic media material to want big, the dielectric voltage withstand that bears requires generally to require more than the 3000V than higher;

3., physical property aspect: the coefficient of expansion and heat resistanceheat resistant resistance to shock that requirement and stainless-steel sheet are complementary;

4., require European Union such as lead-free and cadmium-free to advancing environment requirement.

Between above requirement, many electric slurries can't satisfy basically, though E.I.Du Pont Company and other company have also worked out some electronic media slurries, itself and stainless-steel sheet are complementary, but its expensive price and requirement are repeatedly printed and need the people that lowly allow that add organic binder bond, production efficiency hang back.

Summary of the invention

Problem at the prior art existence, technical problem to be solved by this invention is that a kind of electronic media material of using on the high power stainless steel plate of sintering and preparation method thereof that need not repeatedly to print, need not repeatedly will be provided, its insulation property are excellent, printing characteristic good, can satisfy the requirement of large-scale production.

For reaching above-mentioned purpose, electronic media material on high power stainless steel plate of the present invention is achieved by following technical proposals:

A kind of based on electronic media material on high power stainless steel plate, the main material of electronic media material is made up of devitrified glass, in proportion the nonmetal oxide melting is made microcrystalline glass powder, adding entry then in microcrystalline glass powder becomes muddy to make the electronic media material, microcrystalline glass powder and water ratio are (50～90): (50～10), and wherein nonmetal oxide comprises following each component by weight percentage:

SiO2：20～80％， Al2O3：0.5～20％，

Cr2O3：0.5～8％， CaO：10～50％，

TiO2：0.5～15％， ZrO2：10～30％，

ZnO：1～10％， Na2O：1～5％，

K2O：1～10％， MgO：0.1～10％。

Preparation method based on electronic media material on high power stainless steel plate of the present invention comprises the steps:

1), at first prepare the electronic media material, by weight percentage with following nonmetallic materials proportioning:

SiO2：20～80％， Al2O3：0.5～20％，

Cr2O3：0.5～8％， CaO：10～50％，

TiO2：0.5～15％， ZrO2：10～30％，

ZnO：1～10％， Na2O：1～5％，

K2O：1～10％， MgO：0.1～10％；

Above material mixing stirs, and puts it into sintering in the high temperature box furnace then, and sintering temperature is 1350～1550 ℃, temperature retention time 2～5 hours, be poured into shrend in the water then, ball milling in the ball mill of then devitrified glass that obtains being packed into makes microcrystalline glass powder;

2) add raw material and water, again in microcrystalline glass powder and promptly make slimy electronic media material, microcrystalline glass powder and water ratio are (50～90): (50～10);

3), the electronic media material that makes is put into the storage tank of spray gun, can begin spraying;

4), the electronic media material that will be sprayed on the stainless-steel sheet is dried, in the meshbeltfurnace more than 850 ℃, carry out sintering then, promptly obtain the above insulating medium layer of dielectric voltage withstand 3000V, promptly satisfy the insulating medium layer of the anti-high insulation of heat resistanceheat resistant antivibration high temperature resistance of various high-power requirements.

The invention solves above-mentioned all technical problems, and have the following advantages than traditional electronic media slurry based on the stainless-steel sheet:

1., need not repeatedly to print, need not repeatedly sintering, improved production efficiency greatly, energy savings, save production cost;

2., need not to add organic solvent, be modulated into muddy as long as the slurry microcrystalline glass powder adds water, save cost greatly;

3., adopt the spraying production technology, day output is big, has improved production efficiency and productivity effect greatly, satisfies the requirement of large-scale production;

4., need not dustproof operation, traditional typography is high especially to environment requirement, require more than 10,000 grades, and also to carry out repeatedly clean dedusting to silk screen and steel plate, and the careless slightly dielectric voltage withstand that just causes can't pass, and the production qualification rate is low, and this electronic media material adopts the spraying operation, simple and operation, no environment requirement, product qualified rate is all passed through.

5., dielectric voltage withstand intensity height, can pass through 3000V, and traditional having only about 1500V.

Embodiment

Below in conjunction with embodiment the present invention is described in further detail:

Electronic media material on high power stainless steel plate, it mainly forms microcrystalline glass powder by the melting of nonmetal oxide high temperature sintering, and then add water furnishing muddy, the two ratio of microcrystalline glass powder and water is (50～90): (50～10), being made up of devitrified glass of electronic media material, wherein nonmetal oxide comprises following each component by weight percentage:

SiO2：20～80％， Al2O3：0.5～20％，

Cr2O3：0.5～8％， CaO：10～50％，

TiO2：0.5～15％， ZrO2：10～30％，

ZnO：1～10％， Na2O：1～5％，

K2O：1～10％， MgO：0.1～10％。

In proportion above nonmetal oxide melting is made microcrystalline glass powder, in microcrystalline glass powder, add entry then and make the electronic media material.

Preparation method based on electronic media material on high power stainless steel plate of the present invention comprises the steps:

1), at first prepare the electronic media material, by weight percentage with following nonmetallic materials proportioning:

SiO2：20～80％， Al2O3：0.5～20％，

Cr2O3：0.5～8％， CaO：10～50％，

TiO2：0.5～15％， ZrO2：10～30％，

ZnO：1～10％， Na2O：1～5％，

K2O：1～10％， MgO：0.1～10％；

Above material mixing stirs, and puts it into sintering in the high temperature box furnace then, and sintering temperature is 1350～1550 ℃, temperature retention time 2～5 hours, be poured into shrend in the water then, ball milling in the ball mill of then devitrified glass that obtains being packed into makes microcrystalline glass powder;

2), in microcrystalline glass powder, add raw material and water again and promptly make slimy electronic media material;

3), the electronic media material that makes is put into the storage tank of spray gun, can begin spraying;

4), the electronic media material that will be sprayed on the stainless-steel sheet is dried, in the meshbeltfurnace more than 850 ℃, carry out sintering then, promptly obtain the above insulating medium layer of dielectric voltage withstand 3000V, promptly satisfy the insulating medium layer of the anti-high insulation of heat resistanceheat resistant antivibration high temperature resistance of various high-power requirements.

Claims (2)

1, a kind of based on electronic media material on high power stainless steel plate, it is characterized in that, the main material of electronic media material is made up of devitrified glass, in proportion the nonmetal oxide melting is made microcrystalline glass powder, adding entry then in microcrystalline glass powder becomes muddy to make the electronic media material, microcrystalline glass powder and water ratio are (50～90): (50～10), and wherein nonmetal oxide comprises following each component by weight percentage:

SiO2：20～80％， Al2O3：0.5～20％，

Cr2O3：0.5～8％， CaO：10～50％，

TiO2：0.5～15％， ZrO2：10～30％，

ZnO：1～10％， Na2O：1～5％，

K2O：1～10％， MgO：0.1～10％。

2, a kind of preparation method based on electronic media material on high power stainless steel plate is characterized in that, comprises the steps:

1), at first prepare the electronic media material, by weight percentage with following nonmetallic materials proportioning:

SiO2：20～80％， Al2O3：0.5～20％，

Cr2O3：0.5～8％， CaO：10～50％，

TiO2：0.5～15％， ZrO2：10～30％，

ZnO：1～10％， Na2O：1～5％，

K2O：1～10％， MgO：0.1～10％；

Above material mixing stirs, and puts it into sintering in the high temperature box furnace then, and sintering temperature is 1350～1550 ℃, temperature retention time 2～5 hours, be poured into shrend in the water then, ball milling in the ball mill of then devitrified glass that obtains being packed into makes microcrystalline glass powder;

2) add raw material and water, again in microcrystalline glass powder and promptly make slimy electronic media material, microcrystalline glass powder and water ratio are (50～90): (50～10);

3), the electronic media material that makes is put into the storage tank of spray gun, can begin spraying;

4), the electronic media material that will be sprayed on the stainless-steel sheet dries, and carries out sintering then in the meshbeltfurnace more than 850 ℃, promptly obtains the above insulating medium layer of dielectric voltage withstand 3000V.